Ra. Benedict, Morphological and mitochondrial DNA variation in a hybrid zone between short-tailed shrews (Blarina) in Nebraska, J MAMMAL, 80(1), 1999, pp. 112-134
The parapatric boundary separating Blarina brevicauda and B. hylophaga in N
ebraska was analyzed to quantify hybridization. Multivariate analyses of mo
rphological data from 88 reference animals and 715 shrews from two transect
s across the boundary found the species to be distinct; 49 animals, however
, were morphologically intermediate and could not be identified to species.
Those individuals were trapped at locations clustered near the line of con
tact, suggesting that they were hybrids. Hybrids of trappable age apparentl
y do not suffer reduced survival rates but appear to be reproductively less
fit than nonhybrids. The small number of hybrids found, the abrupt nature
of the boundary, and the strong similarity of dines for different character
s within transects suggests genetic exchange between the species is limited
. Genetic analyses were conducted on 190 shrews from the boundary and 61 re
ference animals. Restriction-site analysis of the mitochondrial cytochrome
b gene generated diagnostic patterns for the reference samples with two sep
arate enzymes. From the boundary, 17 hybrids were found, recognizable by co
nflicting morphological and mitochondrial characteristics. Those individual
s were not morphologically intermediate and probably represented second gen
eration or back-cross hybrids, indicating F-1 hybrids are not sterile. Data
also indicate that interspecific mating involves females of both species.
Overall, these analyses suggest that a lack of assortative mating, combined
with selection against hybrids, may act to Limit sympatry between these sp
ecies. Given the number of parapatric boundaries present in Blarina, the fo
ssil-based evolutionary history proposed, and the morphological differences
of extant species, this group might represent a model system for hybrid zo
ne research.